// intel 63[12]xesb ahci bootstrap sata controller // copyright © 2007 coraid, inc. #include "u.h" #include "lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "error.h" #include "sd.h" #include "ahci.h" #define dprint(...) if(debug == 1) print(__VA_ARGS__); else USED(debug) #define idprint(...) if(prid == 1) print(__VA_ARGS__); else USED(prid) #define aprint(...) if(datapi == 1) print(__VA_ARGS__); else USED(datapi); enum{ NCtlr = 2, NCtlrdrv = 8, NDrive = NCtlr*NCtlrdrv, Read = 0, Write }; // pci space configurtion enum{ Pmap = 0x90, Ppcs = 0x91, Prev = 0xa8, }; enum{ Dnull, Dmissing, Dnew, Dready, Derror, Dreset, Doffline, Dportreset, Dlast }; static char *diskstates[Dlast] = { "null", "missing", "new", "ready", "error", "reset", "offline", "portreset", }; extern SDifc sd63xxesbifc; typedef struct Ctlr Ctlr; enum{ DMautoneg, DMsatai, DMsataii, }; static char *modename[] = { "auto", "satai", "sataii", }; static char *flagname[] = { "llba", "smart", "power", "nop", "atapi", "atapi16", }; typedef struct{ Lock; Ctlr *ctlr; SDunit *unit; char name[10]; Aport *port; Aportm portm; Aportc portc; // redundant ptr to port and portm. uchar mediachange; uchar state; uchar smartrs; uvlong sectors; ulong intick; int wait; uchar mode; // DMautoneg, satai or sataii. uchar active; char serial[20+1]; char firmware[8+1]; char model[40+1]; ushort info[0x200]; int driveno; // ctlr*NCtlrdrv + unit int portno; // controller port number != driveno when not all ports are enabled. }Drive; struct Ctlr{ Lock; int irq; int tbdf; int enabled; SDev *sdev; Pcidev *pci; uchar *mmio; ulong *lmmio; Ahba *hba; Drive rawdrive[NCtlrdrv]; Drive* drive[NCtlrdrv]; int ndrive; }; static Ctlr iactlr[NCtlr]; static SDev sdevs[NCtlr]; static int niactlr; static Drive *iadrive[NDrive]; static int niadrive; static int prid = 0; static int datapi = 0; static char stab[] = { [0] 'i', 'm', [8] 't', 'c', 'p', 'e', [16] 'N', 'I', 'W', 'B', 'D', 'C', 'H', 'S', 'T', 'F', 'X' }; static void serrstr(ulong r, char *s, char *e) { int i; e -= 3; for(i = 0; i < nelem(stab) && s < e; i++){ if((r&(1<>4]; *e++ = ntab[reg[i]&0xf]; *e++ = ' '; } *e++ = '\n'; *e = 0; dprint(buf); } static void dreg(char *s, Aport *p) { dprint("%stask=%ux; cmd=%ux; ci=%ux; is=%ux\n", s, p->task, p->cmd, p->ci, p->isr); } static void esleep(int ms) { delay(ms); } typedef struct{ Aport *p; int i; }Asleep; static int ahciclear(void *v) { Asleep *s; s = v; return (s->p->ci&s->i) == 0; } static void aesleep(Aportm *, Asleep *a, int ms) { ulong start; start = m->ticks; while((a->p->ci&a->i) != 0) if(TK2MS(m->ticks-start) >= ms) break; } static int ahciwait(Aportc *c, int ms) { Asleep as; Aport *p; p = c->p; p->ci = 1; as.p = p; as.i = 1; aesleep(c->m, &as, ms); if((p->task&1) == 0 && p->ci == 0) return 0; dreg("ahciwait timeout ", c->p); return -1; } static int nop(Aportc *pc) { Actab *t; Alist *l; uchar *c; if((pc->m->feat&Dnop) == 0) return -1; t = pc->m->ctab; c = t->cfis; memset(c, 0, 0x20); c[0] = 0x27; c[1] = 0x80; c[2] = 0x00; c[7] = 0xa0; // obsolete device bits. l = pc->m->list; l->flags = Lwrite|0x5; l->len = 0; l->ctab = PCIWADDR(t); l->ctabhi = 0; return ahciwait(pc, 3*1000); } static int setfeatures(Aportc *pc, uchar f) { Actab *t; Alist *l; uchar *c; t = pc->m->ctab; c = t->cfis; memset(c, 0, 0x20); c[0] = 0x27; c[1] = 0x80; c[2] = 0xef; c[3] = f; c[7] = 0xa0; // obsolete device bits. l = pc->m->list; l->flags = Lwrite|0x5; l->len = 0; l->ctab = PCIWADDR(t); l->ctabhi = 0; return ahciwait(pc, 3*1000); } static int setudmamode(Aportc *pc, uchar f) { Actab *t; Alist *l; uchar *c; t = pc->m->ctab; c = t->cfis; memset(c, 0, 0x20); c[0] = 0x27; c[1] = 0x80; c[2] = 0xef; c[3] = 3; // set transfer mode. c[7] = 0xa0; // obsolete device bits. c[12] = 0x40|f; // sector count. l = pc->m->list; l->flags = Lwrite|0x5; l->len = 0; l->ctab = PCIWADDR(t); l->ctabhi = 0; return ahciwait(pc, 3*1000); } static void asleep(int ms) { delay(ms); } static int ahciportreset(Aportc *c) { u32int *cmd, i; Aport *p; p = c->p; cmd = &p->cmd; *cmd &= ~(Afre|Ast); for(i = 0; i < 500; i += 25){ if((*cmd&Acr) == 0) break; asleep(25); } p->sctl = 1|(p->sctl&~7); delay(1); p->sctl &= ~7; return 0; } static ushort gbit16(void *a) { uchar *i; ushort j; i = a; j = i[1]<<8; j |= i[0]; return j; } static u32int gbit32(void *a) { uchar *i; u32int j; i = a; j = i[3]<<24; j |= i[2]<<16; j |= i[1]<<8; j |= i[0]; return j; } static uvlong gbit64(void *a) { uchar *i; i = a; return ((uvlong) gbit32(i+4)<<32)|gbit32(a); } static int ahciidentify0(Aportc *pc, void *id, int atapi) { Actab *t; Alist *l; Aprdt *p; uchar *c; static uchar tab[] = {0xec, 0xa1}; t = pc->m->ctab; c = t->cfis; memset(c, 0, 0x20); c[0] = 0x27; c[1] = 0x80; c[2] = tab[atapi]; c[7] = 0xa0; // obsolete device bits. l = pc->m->list; l->flags = (1<<16)|0x5; l->len = 0; l->ctab = PCIWADDR(t); l->ctabhi = 0; memset(id, 0, 0x100); p = &t->prdt; p->dba = PCIWADDR(id); p->dbahi = 0; p->count = (1<<31)|(0x200-2)|1; return ahciwait(pc, 3*1000); } static vlong ahciidentify(Aportc *pc, ushort *id) { Aportm *m; int i, sig; vlong s; m = pc->m; m->feat = 0; m->smart = 0; i = 0; sig = pc->p->sig>>16; if(sig == 0xeb14){ m->feat |= Datapi; i = 1; } if(ahciidentify0(pc, id, i) == -1) return -1; i = gbit16(id+83)|gbit16(id+86); if(i&(1<<10)){ m->feat |= Dllba; s = gbit64(id+100); }else s = gbit32(id+60); if(m->feat&Datapi){ i = gbit16(id+0); if(i&1) m->feat |= Datapi16; } i = gbit16(id+83); if(i>>14 != 1) goto done; if(i&(1<<3)) m->feat |= Dpower; i = gbit16(id+82); if(i&1) m->feat |= Dsmart; if(i&(1<<14)) m->feat |= Dnop; done: return s; } static int ahciquiet(Aport *a) { u32int *p, i; p = &a->cmd; *p &= ~Ast; for(i = 0; i < 500; i += 50){ if((*p&Acr) == 0) goto stop; asleep(50); } return -1; stop: if((a->task&(ASdrq|ASbsy)) == 0){ *p |= Ast; return 0; } *p |= Aclo; for(i = 0; i < 500; i += 50){ if((*p&Aclo) == 0) goto stop1; asleep(50); } return -1; stop1: // extra check dprint("clo clear %x\n", a->task); if(a->task&ASbsy) return -1; *p |= Ast; return 0; } static int ahciidle(Aport *port) { u32int *p, i, r; p = &port->cmd; if((*p&Arun) == 0) return 0; *p &= ~Ast; r = 0; for(i = 0; i < 500; i += 25){ if((*p&Acr) == 0) goto stop; asleep(25); } r = -1; stop: if((*p&Afre) == 0) return r; *p &= ~Afre; for(i = 0; i < 500; i += 25){ if((*p&Afre) == 0) return 0; asleep(25); } return -1; } // § 6.2.2.1 first part; comreset handled by reset disk. // - remainder is handled by configdisk. // - ahcirecover is a quick recovery from a failed command. int ahciswreset(Aportc *pc) { int i; i = ahciidle(pc->p); pc->p->cmd |= Afre; if(i == -1) return -1; if(pc->p->task&(ASdrq|ASbsy)) return -1; return 0; } int ahcirecover(Aportc *pc) { ahciswreset(pc); pc->p->cmd |= Ast; if(setudmamode(pc, 5) == -1) return -1; return 0; } static void* malign(int size, int align) { void *v; v = xspanalloc(size, align, 0); memset(v, 0, size); return v; } static void setupfis(Afis *f) { f->base = malign(0x100, 0x100); f->d = f->base+0; f->p = f->base+0x20; f->r = f->base+0x40; f->u = f->base+0x60; f->devicebits = (u32int*)(f->base+0x58); } static int ahciconfigdrive(Ahba *h, Aportc *c, int mode) { Aportm *m; Aport *p; p = c->p; m = c->m; if(m->list == 0){ setupfis(&m->fis); m->list = malign(sizeof *m->list, 1024); m->ctab = malign(sizeof *m->ctab, 128); } if(p->sstatus&3 && h->cap&Hsss){ dprint("configdrive: spinning up ... [%ux]\n", p->sstatus); p->cmd |= Apod|Asud; asleep(1400); } p->serror = SerrAll; p->list = PCIWADDR(m->list); p->listhi = 0; p->fis = PCIWADDR(m->fis.base); p->fishi = 0; p->cmd |= Afre|Ast; // disable power managment sequence from book. p->sctl = (3*Aipm)|(mode*Aspd)|0*Adet; p->cmd &= ~Aalpe; p->ie = IEM; return 0; } static int ahcienable(Ahba *h) { h->ghc |= Hie; return 0; } static int ahcidisable(Ahba *h) { h->ghc &= ~Hie; return 0; } static int countbits(ulong u) { int i, n; n = 0; for(i = 0; i < 32; i++) if(u&(1<hba = (Ahba*)c->mmio; u = h->cap; if((u&Hsam) == 0) h->ghc |= Hae; print("ahci hba sss %d; ncs %d; coal %d; mports %d; led %d; clo %d; ems %d;\n", (u>>27)&1, (u>>8)&0x1f, (u>>7)&1, u&0x1f, (u>>25)&1, (u>>24)&1, (u>>6)&1); return countbits(h->pi); } static int ahcihbareset(Ahba *h) { int wait; h->ghc |= 1; for(wait = 0; wait < 1000; wait += 100){ if(h->ghc == 0) return 0; delay(100); } return -1; } static void idmove(char *p, ushort *a, int n) { char *op, *e; int i; op = p; for(i = 0; i < n/2; i++){ *p++ = a[i]>>8; *p++ = a[i]; } *p = 0; while(p > op && *--p == ' ') *p = 0; e = p; p = op; while(*p == ' ') p++; memmove(op, p, n-(e-p)); } static int identify(Drive *d) { SDunit *u; uchar oserial[21]; u16int *id; vlong osectors, s; id = d->info; s = ahciidentify(&d->portc, id); if(s == -1){ d->state = Derror; return -1; } osectors = d->sectors; memmove(oserial, d->serial, sizeof d->serial); d->sectors = s; d->smartrs = 0; idmove(d->serial, id+10, 20); idmove(d->firmware, id+23, 8); idmove(d->model, id+27, 40); u = d->unit; memset(u->inquiry, 0, sizeof u->inquiry); u->inquiry[2] = 2; u->inquiry[3] = 2; u->inquiry[4] = sizeof u->inquiry-4; memmove(u->inquiry+8, d->model, 40); if((osectors == 0 || osectors != s) && memcmp(oserial, d->serial, sizeof oserial) != 0){ d->mediachange = 1; u->sectors = 0; } return 0; } static void clearci(Aport *p) { if((p->cmd&Ast) == 0) return; p->cmd &= ~Ast; p->cmd |= Ast; } static void updatedrive(Drive *d) { u32int cause, serr, s0, pr, ewake; char *name; Aport *p; static u32int last; pr = 1; ewake = 0; p = d->port; cause = p->isr; serr = p->serror; p->isr = cause; name = "??"; if(d->unit && d->unit->name) name = d->unit->name; if(p->ci == 0){ d->portm.flag |= Fdone; pr = 0; }else if(cause&Adps) pr = 0; if(cause&Ifatal){ ewake = 1; dprint("Fatal\n"); } if(cause&Adhrs){ if(p->task&33){ dprint("Adhrs cause = %ux; serr = %ux; task=%ux\n", cause, serr, p->task); d->portm.flag |= Ferror; ewake = 1; } pr = 0; } if(pr) dprint("%s: upd %ux ta %ux\n", name, cause, p->task); if(cause&(Aprcs|Aifs)){ s0 = d->state; switch(p->sstatus&7){ case 0: d->state = Dmissing; break; case 1: d->state = Derror; break; case 3: /* power mgnt crap for suprise removal */ p->ie |= Aprcs|Apcs; // is this required? d->state = Dreset; break; case 4: d->state = Doffline; break; } dprint("%s: %s → %s [Apcrs] %ux\n", name, diskstates[s0], diskstates[d->state], p->sstatus); // print pulled message here. if(s0 == Dready && d->state != Dready) idprint("%s: pulled\n", name); if(d->state != Dready) d->portm.flag |= Ferror; ewake = 1; } p->serror = serr; if(ewake) clearci(p); last = cause; } static void pstatus(Drive *d, ulong s) { // bogus code because the first interrupt is currently dropped. // likely my fault. serror is may be cleared at the wrong time. switch(s){ case 0: d->state = Dmissing; break; case 2: // should this be missing? need testcase. dprint("pstatus 2\n"); case 3: d->wait = 0; d->state = Dnew; break; case 4: d->state = Doffline; break; } } static int configdrive(Drive *d) { if(ahciconfigdrive(d->ctlr->hba, &d->portc, d->mode) == -1) return -1; ilock(d); pstatus(d, d->port->sstatus&7); iunlock(d); return 0; } static void resetdisk(Drive *d) { uint state, det, stat; Aport *p; p = d->port; det = p->sctl&7; stat = p->sstatus&7; state = (p->cmd>>28)&0xf; dprint("resetdisk: icc %ux det %d sdet %d\n", state, det, stat); if(stat != 3){ ilock(d); d->state = Dportreset; iunlock(d); return; } ilock(d); state = d->state; if(d->state != Dready || d->state != Dnew) d->portm.flag |= Ferror; clearci(p); // satify sleep condition. iunlock(d); qlock(&d->portm); if(p->cmd&Ast && ahciswreset(&d->portc) == -1){ ilock(d); d->state = Dportreset; // get a bigger stick. iunlock(d); goto out; } ilock(d); d->state = Dmissing; iunlock(d); configdrive(d); out: dprint("resetdisk: %s → %s\n", diskstates[state], diskstates[d->state]); qunlock(&d->portm); } static int newdrive(Drive *d) { char *name, *s; Aportc *c; Aportm *m; c = &d->portc; m = &d->portm; name = d->unit->name; if(name == 0) name = "??"; if(d->port->task == 0x80) return -1; qlock(c->m); if(setudmamode(c, 5) == -1){ dprint("%s: can't set udma mode\n", name); goto loose; } if(identify(d) == -1){ dprint("%s: identify failure\n", name); goto loose; } if(m->feat&Dpower) if(setfeatures(c, 0x85) == -1){ m->feat &= ~Dpower; if(ahcirecover(c) == -1) goto loose; } ilock(d); d->state = Dready; iunlock(d); qunlock(c->m); s = ""; if(m->feat&Dllba) s="L"; idprint("%s: %sLBA %lld sectors\n", d->unit->name, s, d->sectors); idprint(" %s %s %s %s\n", d->model, d->firmware, d->serial, d->mediachange?"[mediachange]":""); return 0; loose: qunlock(&d->portm); return -1; } enum{ Nms = 256, Mphywait = 2*1024/Nms-1, Midwait = 16*1024/Nms-1, Mcomrwait = 64*1024/Nms-1, }; static void westerndigitalhung(Drive *d) { if((d->portm.feat&Datapi) == 0) if(d->active && TK2MS(m->ticks-d->intick) > 5000){ dprint("%s: drive hung; resetting [%ux] ci=%x\n", d->unit->name, d->port->task, d->port->ci); d->state = Dreset; } } static ushort olds[NCtlr*NCtlrdrv]; static int doportreset(Drive *d) { int i; i = -1; qlock(&d->portm); if(ahciportreset(&d->portc) == -1) dprint("ahciportreset fails\n"); else i = 0; qunlock(&d->portm); dprint("portreset → %s [task %ux]\n", diskstates[d->state], d->port->task); return i; } static void checkdrive(Drive *d, int i) { ushort s; char *name; ilock(d); name = d->unit->name; s = d->port->sstatus; if(s != olds[i]){ dprint("%s: status: %04ux -> %04ux: %s\n", name, olds[i], s, diskstates[d->state]); olds[i] = s; d->wait = 0; } westerndigitalhung(d); switch(d->state){ case Dnull: break; case Dmissing: case Dnew: switch(s&0x107){ case 0: case 1: break; default: dprint("%s: unknown status %04ux\n", name, s); case 0x100: if(++d->wait&Mphywait) break; reset: if(++d->mode > DMsataii) d->mode = 0; if(d->mode == DMsatai){ // we tried everything d->state = Dportreset; goto portreset; } dprint("%s: reset; new mode %s\n", name, modename[d->mode]); iunlock(d); resetdisk(d); ilock(d); break; case 0x103: if((++d->wait&Midwait) == 0){ dprint("%s: slow reset %04ux task=%ux; %d\n", name, s, d->port->task, d->wait); goto reset; } s = d->port->task&0xff; if(s == 0x7f || ((d->port->sig>>16) != 0xeb14 && (s&~0x17) != (1<<6))) break; iunlock(d); newdrive(d); ilock(d); } break; case Dready: break; case Doffline: if(d->wait++&Mcomrwait) break; case Derror: case Dreset: dprint("%s: reset [%s]: mode %d; status %04ux\n", name, diskstates[d->state], d->mode, s); iunlock(d); resetdisk(d); ilock(d); break; case Dportreset: portreset: if(d->wait++&0xff) if((s&0x100) == 0) break; dprint("%s: portreset [%s]: mode %d; status %04ux\n", name, diskstates[d->state], d->mode, s); d->portm.flag |= Ferror; clearci(d->port); if((s&7) == 0){ d->state = Dmissing; break; } iunlock(d); doportreset(d); ilock(d); break; } iunlock(d); } static void iainterrupt(Ureg*, void *a) { Ctlr *c; Drive *d; ulong cause, m; int i; c = a; ilock(c); // check drive here! cause = c->hba->isr; for(i = 0; i < c->ndrive; i++){ m = 1<rawdrive+i; ilock(d); if(d->port->isr) if(c->hba->pi&m) updatedrive(d); c->hba->isr = m; iunlock(d); } iunlock(c); } static int iaverify(SDunit *u) { Ctlr *c; Drive *d; c = u->dev->ctlr; d = c->drive[u->subno]; ilock(c); ilock(d); d->unit = u; iunlock(d); iunlock(c); checkdrive(d, d->driveno); return 1; } static int iaenable(SDev *s) { Ctlr *c; c = s->ctlr; ilock(c); if(c->enabled) goto done; pcisetbme(c->pci); setvec(c->irq+VectorPIC, iainterrupt, c); // supposed to squelch leftover interrupts here. ahcienable(c->hba); done: c->enabled = 1; iunlock(c); return 1; } static int iadisable(SDev *s) { Ctlr *c; c = s->ctlr; ilock(c); ahcidisable(c->hba); // intrdisable(c->irq, iainterrupt, c, c->tbdf, name); c->enabled = 0; iunlock(c); return 1; } static int iaonline(SDunit *unit) { Ctlr *c; Drive *d; int r; c = unit->dev->ctlr; d = c->drive[unit->subno]; r = 0; if((d->portm.feat&Datapi) && d->mediachange){ r = scsionline(unit); if(r > 0) d->mediachange = 0; return r; } ilock(d); if(d->mediachange){ r = 2; d->mediachange = 0; // devsd rests this after online is called; why? unit->sectors = d->sectors; unit->secsize = 512; } else if(d->state == Dready) r = 1; iunlock(d); return r; } /* returns locked list! */ static Alist* ahcibuild(Aportm *m, uchar *cmd, void *data, int n, vlong lba) { Alist *l; Actab *t; Aprdt *p; uchar *c, acmd, dir, llba; static uchar tab[2][2] = {0xc8, 0x25, 0xca, 0x35}; dir = *cmd != 0x28; llba = m->feat&Dllba ? 1 : 0; acmd = tab[dir][llba]; qlock(m); l = m->list; t = m->ctab; c = t->cfis; c[0] = 0x27; c[1] = 0x80; c[2] = acmd; c[3] = 0; c[4] = lba; // sector lba low 7:0 c[5] = lba>>8; // cylinder low lba mid 15:8 c[6] = lba>>16; // cylinder hi lba hi 23:16 c[7] = 0xa0|0x40; // obsolete device bits + lba if(llba == 0) c[7] |= lba>>24&7; c[8] = lba>>24; // sector (exp) lba 31:24 c[9] = lba>>32; // cylinder low (exp) lba 39:32 c[10] = lba>>48; // cylinder hi (exp) lba 48:40 c[11] = 0; // features (exp); c[12] = n; // sector count c[13] = n>>8; // sector count (exp) c[14] = 0; // r c[15] = 0; // control *(ulong*)(c+16) = 0; l->flags = (1<<16)|Lpref|0x5; // Lpref ?? if(dir == Write) l->flags |= Lwrite; l->len = 0; l->ctab = PCIWADDR(t); l->ctabhi = 0; p = &t->prdt; p->dba = PCIWADDR(data); p->dbahi = 0; p->count = (1<<31)|(512*n-2)|1; return l; } static Alist* ahcibuildpkt(Aportm *m, SDreq *r, void *data, int n) { Alist *l; Actab *t; Aprdt *p; uchar *c; int fill, len; qlock(m); l = m->list; t = m->ctab; c = t->cfis; fill = m->feat&Datapi16 ? 16 : 12; if((len = r->clen) > fill) len = fill; memmove(t->atapi, r->cmd, len); memset(t->atapi+len, 0, fill-len); c[0] = 0x27; c[1] = 0x80; c[2] = 0xa0; if(n != 0) c[3] = 1; // dma else c[3] = 0; // features (exp); c[4] = 0; // sector lba low 7:0 c[5] = n; // cylinder low lba mid 15:8 c[6] = n>>8; // cylinder hi lba hi 23:16 c[7] = 0xa0; // obsolete device bits *(ulong*)(c+8) = 0; *(ulong*)(c+12) = 0; *(ulong*)(c+16) = 0; l->flags = (1<<16)|Lpref|Latapi|0x5; if(r->write != 0 && data) l->flags |= Lwrite; l->len = 0; l->ctab = PCIWADDR(t); l->ctabhi = 0; if(data == 0) return l; p = &t->prdt; p->dba = PCIWADDR(data); p->dbahi = 0; p->count = (1<<31)|(n-2)|1; return l; } static int waitready(Drive *d) { u32int s, t, i; for(i = 0; i < 120; i++){ ilock(d); s = d->port->sstatus; t = d->port->task; iunlock(d); if((s&0x100) == 0) return -1; if(d->state == Dready) if((s&7) == 3) return 0; if((i+1)%30 == 0) print("%s: waitready: [%s] task=%ux sstat=%ux\n", d->unit->name, diskstates[d->state], t, s); esleep(1000); } print("%s: not responding; offline\n", d->unit->name); ilock(d); d->state = Doffline; iunlock(d); return -1; } static int iariopkt(SDreq *r, Drive *d) { int n, count, try, max, flag, task; uchar *cmd, *data; char *name; Aport *p; Asleep as; cmd = r->cmd; name = d->unit->name; p = d->port; aprint("%02ux %02ux %c %d %p\n", cmd[0], cmd[2], "rw"[r->write], r->dlen, r->data); // if(cmd[0] == 0x5a && (cmd[2]&0x3f) == 0x3f) // return sdmodesense(r, cmd, d->info, sizeof d->info); r->rlen = 0; count = r->dlen; max = 65536; try = 0; retry: if(waitready(d) == -1) return SDeio; data = r->data; n = count; if(n > max) n = max; d->active++; ahcibuildpkt(&d->portm, r, data, n); ilock(d); d->portm.flag = 0; iunlock(d); p->ci = 1; as.p = p; as.i = 1; d->intick = m->ticks; while(ahciclear(&as) == 0) ; ilock(d); flag = d->portm.flag; task = d->port->task; iunlock(d); if(task&(Efatal<<8) || task&(ASbsy|ASdrq) && d->state == Dready){ d->port->ci = 0; // @? ahcirecover(&d->portc); task = d->port->task; } d->active--; qunlock(&d->portm); if(flag == 0){ if(++try == 10){ print("%s: bad disk\n", name); r->status = SDcheck; return SDcheck; } print("%s: retry\n", name); esleep(1000); goto retry; } if(flag&Ferror){ print("%s: i/o error %ux\n", name, task); r->status = SDcheck; return SDcheck; } data += n; r->rlen = data-(uchar*)r->data; r->status = SDok; return SDok; } static int iario(SDreq *r) { int n, count, max, flag, task; SDunit *unit; Ctlr *c; Drive *d; uchar *cmd, *data; char *name; vlong lba; Aport *p; Asleep as; unit = r->unit; c = unit->dev->ctlr; d = c->drive[unit->subno]; if(d->portm.feat&Datapi) return iariopkt(r, d); cmd = r->cmd; name = d->unit->name; p = d->port; // if((i = sdfakescsi(r, d->info, sizeof d->info)) != SDnostatus){ // r->status = i; // return i; // } if(*cmd != 0x28 && *cmd != 0x2a){ print("%s: bad cmd 0x%.2ux\n", name, cmd[0]); r->status = SDcheck; return SDcheck; } lba = (cmd[2]<<24)|(cmd[3]<<16)|(cmd[4]<<8)|cmd[5]; count = (cmd[7]<<8)|cmd[8]; if(r->data == nil) return SDok; if(r->dlen < count*unit->secsize) count = r->dlen/unit->secsize; max = 128; if(waitready(d) == -1) return SDeio; data = r->data; while(count > 0){ n = count; if(n > max) n = max; d->active++; ahcibuild(&d->portm, cmd, data, n, lba); ilock(d); d->portm.flag = 0; iunlock(d); p->ci = 1; as.p = p; as.i = 1; d->intick = m->ticks; while(ahciclear(&as) == 0) ; ilock(d); flag = d->portm.flag; task = d->port->task; iunlock(d); if(task&(Efatal<<8) || task&(ASbsy|ASdrq) && d->state == Dready){ d->port->ci = 0; // @? ahcirecover(&d->portc); task = d->port->task; } d->active--; qunlock(&d->portm); if(flag == 0 || (flag&Ferror)){ print("%s: i/o error %ux @%lld\n", name, task, lba); r->status = SDeio; return SDeio; } count -= n; lba += n; data += n*unit->secsize; } r->rlen = data-(uchar*)r->data; r->status = SDok; return SDok; } /* * configure drives 0-5 as ahci sata (c.f. errata) */ static int iaahcimode(Pcidev *p) { dprint("iaahcimode %ux %ux %ux\n", pcicfgr8(p, 0x91), pcicfgr8(p, 92), pcicfgr8(p, 93)); pcicfgw16(p, 0x92, pcicfgr32(p, 0x92)|0xf); // ports 0-3 // pcicfgw8(p, 0x93, pcicfgr32(p, 9x93)|3); // ports 4-5 return 0; } static void iasetupahci(Ctlr *c) { // disable cmd block decoding. pcicfgw16(c->pci, 0x40, pcicfgr16(c->pci, 0x40)&~(1<<15)); pcicfgw16(c->pci, 0x42, pcicfgr16(c->pci, 0x42)&~(1<<15)); c->lmmio[0x4/4] |= 1<<31; // enable ahci mode (ghc register) c->lmmio[0xc/4] = (1<<6)-1; // five ports. (supposedly ro pi register) // enable ahci mode. // pcicfgw8(c->pci, 0x90, 0x40); // pcicfgw16(c->pci, 0x90, (1<<6)|(1<<5)); //pedanticly proper for ich9. pcicfgw8(c->pci, 0x90, (1<<6)|(1<<5)); //pedanticly proper for ich9. } static SDev* iapnp(void) { int i, n, nunit; ulong io; Ctlr *c; Pcidev *p; SDev *head, *tail, *s; Drive *d; static int done; if(done++) return nil; p = nil; head = nil; tail = nil; loop: while((p = pcimatch(p, 0x8086, 0)) != nil){ if((p->did&0xfffc) != 0x2680) // esb if((p->did&0xfffa) != 0x27c0) // 82801g[bh]m continue; if(niactlr == NCtlr){ print("iapnp: too many controllers\n"); break; } c = iactlr+niactlr; s = sdevs+niactlr; memset(c, 0, sizeof *c); memset(s, 0, sizeof *s); io = p->mem[Abar].bar & ~0xf; c->mmio = (uchar*)upamalloc(io, p->mem[0].size, 0); if(c->mmio == 0){ print("iapnp: address 0x%luX in use did=%x\n", io, p->did); continue; } c->lmmio = (ulong*)c->mmio; c->pci = p; if(p->did != 0x2681) iasetupahci(c); nunit = ahciconf(c); //ahcihbareset((Ahba*)c->mmio); if(iaahcimode(p) == -1) break; if(nunit < 1){ // vunmap(c->mmio, p->mem[0].size); continue; } niactlr++; i = (c->hba->cap>>21)&1; print("intel 63[12]xesb: sata-%s ports with %d ports\n", "I\0II"+i*2, nunit); s->ifc = &sd63xxesbifc; s->ctlr = c; s->nunit = nunit; s->idno = 'E'; c->sdev = s; c->irq = p->intl; c->tbdf = p->tbdf; c->ndrive = nunit; // map the drives -- they don't all need to be enabled. memset(c->rawdrive, 0, sizeof c->rawdrive); n = 0; for(i = 0; i < NCtlrdrv; i++) { d = c->rawdrive+i; d->portno = i; d->driveno = -1; d->sectors = 0; d->ctlr = c; if((c->hba->pi&(1<port = (Aport*)(c->mmio+0x80*i+0x100); d->portc.p = d->port; d->portc.m = &d->portm; d->driveno = n++; c->drive[i] = d; iadrive[d->driveno] = d; } for(i = 0; i < n; i++) if(ahciidle(c->drive[i]->port) == -1){ dprint("intel 63[12]xesb: port %d wedged; abort\n", i); goto loop; } for(i = 0; i < n; i++){ c->drive[i]->mode = DMsatai; configdrive(c->drive[i]); } niadrive += nunit; if(head) tail->next = s; else head = s; tail = s; } return head; } static SDev* iaid(SDev* sdev) { Ctlr *c; int i; for(; sdev; sdev = sdev->next){ if(sdev->ifc != &sd63xxesbifc) continue; c = sdev->ctlr; for(i = 0; i < NCtlr; i++) if(c == iactlr+i) sdev->idno = 'E'+i; } return nil; } SDifc sd63xxesbifc = { "iahci", iapnp, nil, /* legacy */ iaid, iaenable, iadisable, iaverify, iaonline, iario, nil, nil, scsibio, };